AME8501AEFTDF18,AME8501AEFTDF18 pdf中文资料,AME8501AEFTDF18引脚图,AME8501AEFTDF18电路-Datasheet-电子工程世界

文档预览

AME, Inc.

AME8500 / 8501

Processor Supervisory

General Description

The AME8500 family allows the user to customize the

CPU reset function without any external components.

The user has a large choice of reset voltage thresholds,

reset time intervals, and output driver configurations, all

of which are preset at the factory. Each wafer is trimmed

to the customer's specifications.

These circuits monitor the power supply voltage of

µP

based systems. When the power supply voltage drops

below the voltage threshold a reset is asserted immedi-

ately (within an interval T

). The reset remains asserted

after the supply voltage rises above the voltage threshold

for a time interval, T

. The reset output may be either

active high (RESET) or active low (RESETB). The reset

output may be configured as either push/pull or open

drain. The state of the reset output is guaranteed to be

correct for supply voltages greater than 1V.

The AME8501 includes all the above functionality plus

an overtemperature shutdown function. When the ambi-

ent temperature exceeds 80

C a reset is asserted and

remains asserted until the temperature falls below 60

Space saving SOT23 packages and micropower qui-

escent current (<3.0µA) make this family a natural for

portable battery powered equipment.

Typical Operating Circuit

AME8500

RESET / RESET

GND

Processor

RESET

Input

GND

Note: * External pull-up resistor is required if open-

drain output is used. 10 kΩ is recommended.

Block Diagram

AME8500 with Push-Pull RESET

Delay

Features

Small packages: SOT-23, SOT-89

11 voltage threshold options

Tight voltage threshold tolerance ---±1.50%

5 reset interval options

4 output configuration options

Wide temperature range -------- -40

C to 85

Low temperature coefficient --- 100ppm/

(max)

Low quiescent current < 3.0µA

Thermal shutdown option (AME8501)

GND

RESET

REF

AME8500 with Push-Pull RESET

Applications

Portable electronics

Power supplies

Computer peripherals

Data acquisition systems

Applications using CPUs

Consumer electronics

Delay

RESET

GND

REF

AME, Inc.

AME8500 / 8501

Processor Supervisory

Block Diagram (contd.)

AME8500 with Open-Drain RESET

Delay

AME8500 with Open-Drain RESET

RESET

GND

REF

Delay

RESET

GND

REF

Pin Configuration

SOT-23

Top View

SOT-23

Top View

AME8500AEET

AME8501AEET

1. GND

2. Reset/ResetB

3. V

AME8500

AME8500BEET

AME8501BEET

1. Reset/ResetB

2. GND

3. V

SOT-23

Top View

SOT-23-L

Top View

AME8500CEET

AME8501CEET

1. Reset/ResetB

2. V

3. GND

AME8500

AME8500AEET

AME8501AEET

1. GND

2. Reset/ResetB

3. V

AME, Inc.

AME8500 / 8501

Processor Supervisory

Pin Configuration (contd.)

SOT-23-L

Top View

SOT-23-L

Top View

AME8500BEET

AME8501BEET

1. Reset/ResetB

2. GND

3. V

AME8500CEET

AME8501CEET

1. Reset/ResetB

2. V

3. GND

AME8500

SOT-89

Top View

AME8500AEFT

AME8501AEFT

1. GND

2. V

3. Reset/ResetB

SOT-89

Top View

AME8500BEFT

AME8501BEFT

1. Reset/ResetB

2. V

3. GND

AME8500

SOT-89

Top View

AME8500CEFT

AME8501CEFT

1. V

2. GND

3. Reset/ResetB

SOT-25

Top View

AME8500

AME8500BEEV

AME8501BEEV

1. Reset/ResetB

2. V

3. GND

4. N/C

5. N/C

Pin Description

Pin Name

GND

RESETB/RESET

Ground

This pin can be ordered as RESET or RESETB. RESET is active high.

RESETB is active low. It is also available with an open drain or pushpull

output.

Positive power supply. A reset is asserted after this voltage drops below

a predetermined level. After V

rises above that level the reset output

remains asserted until the end of the reset timeout period.

Pin Description

AME, Inc.

AME8500 / 8501

Processor Supervisory

Ordering Information

AME8500 x x x x x x x x

AME8501 x x x x x x x x

Special Feature

VDD Threshold Voltage (V

)

Reset Time (T

D2NOM

)

Output Driver Option

Number of Pins

Package Type

Operating Temperature Range

Pin Configuration

Output Driver

Number

Option

Package

Characteristic

Type

Pins

of RESET or

RESETB pin

T: 3

V: 5

Configuration

Operating

Temperature

Range

Reset

Time

D2NOM

)

VDD

Threshold

Voltage (V

)

Special

Feature

(SOT-23)

(SOT-89)

1. GND

E: -40

C to 85

C E: SOT-2X

2. Reset/

F: SOT-89

ResetB

3. VDD

1. Reset/

ResetB

2. GND

3. VDD

1. Reset/

ResetB

2. VDD

3. GND

1. GND

2. VDD

3. Reset/

ResetB

1. Reset/

ResetB

2. VDD

3. GND

1. VDD

2. GND

3. Reset/

ResetB

A: RESETB /PP A: 1.5 ms

B: RESETB /OD D: 30 ms

C: RESET/ PP E: 150 ms

D: RESET/ OD F: 210 ms

(RESET = Active High)

(RESETB = Active Low)

(PP = Push pull out)

(OD = Open drain output

polarity)

15: VTH=

16: VTH=

18: VTH=

19: VTH=

20: VTH=

21: VTH=

22: VTH=

23: VTH=

24: VTH=

26: VTH=

27: VTH=

28: VTH=

29: VTH=

31: VTH=

40: VTH=

42: VTH=

44: VTH=

46: VTH=

1.5V L: Low profile

1.6V Y: Lead free &

1.8V

Low profile

1.9V Z: Lead free

2.0V

2.1V

2.2V

2.32V

2.4V

2.63V

2.7V

2.8V

2.93V

3.08V

4.0V

4.2V

4.38V

4.63V

AME, Inc.

AME8500 / 8501

Processor Supervisory

Ordering Information

Part Number

AME8500AEETAA21

AME8500AEETAD20

AME8500AEETAE20

AME8500AEETAE21

AME8500AEETAE26

AME8500AEETAE26L

AME8500AEETAE29

AME8500AEETAE31

AME8500AEETAE46

AME8500AEETAF15

AME8500AEETAF16

AME8500AEETAF21

AME8500AEETAF23

AME8500AEETAF26

AME8500AEETAF27

AME8500AEETAF29

AME8500AEETAF31

AME8500AEETAF40

AME8500AEETAF44

AME8500AEETAF46

AME8500AEETBF31

AME8500AEETBF46

AME8500AEETCA21

AME8500AEETCA27

AME8500AEETCA46

AME8500AEETCD20

AME8500AEETCF21

AME8500AEETCF29

AME8500AEETCF31

Marking

ASVww

ALXww

AUAww

AVGww

ASJww

ALYww

AUBww

ATSww

ATDww

ATEww

ASKww

ATTww

AMPww

ATRww

AMOww

ASAww

ASBww

ARNww

ARKww

AUTww

AUUww

ASWww

AVBww

AVCww

ALZww

ATYww

ALVww

ASUww

Voltage

2.10V

2.00V

2.10V

2.63V

2.93V

3.08V

4.63V

1.50V

1.60V

2.10V

2.32V

2.63V

2.70V

2.93V

3.08V

4.00V

4.38V

4.63V

3.08V

4.63V

2.10V

2.70V

4.63V

2.00V

2.10V

2.93V

3.08V

Package

SOT-23

Operating Temp. Range

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

- 40

C to + 85

怎样修改apb的频率: 我用的是cortexm0的lpc1114，发现最短的时钟中断太长了，于是想修改一个apb的clk，但是找不到此寄存器看到有的手册说是apb的频率是ahb的四分之一，请问一下该如何修改，谢谢了怎样修改apb的频率有一段ZLG的代码，你参考一下。voidtargetInit(void){INT32Ui,uiRegVal;externvoid*__GpvVectorTable;zyIrqDisable();SYSMEMREMAP=0x02;...; gl4365 NXP MCU

远景论坛现在开放注册: 以前需要邀请码注册的远景论坛，现在开放注册，感兴趣的可以去注册了。远景论坛，一直都是发布破解版系统的基地。http://bbs.pcbeta.com/?fromuid=657893远景论坛现在开放注册为什么后面会有一个ID呢？哦？进去看看引用1楼91program的回复:为什么后面会有一个ID呢？是推广链接奥，看看去引用1楼91program的回复:为什么后面会有一个ID呢？呵呵hao瞅瞅...; pka1987 嵌入式系统

TLP3547评估板评测: 收到的TLP3547的评估板样品包装不错，采用一个小塑料盒，外加一份一份说明书。这样样品不容易被磕碰损伤。TLP3547的评估板为了和传统的继电器封装兼容采用了由两块小板拼接而成的方案，这样把DIP8封装转换成了下边的四个引脚，左边两个是“线圈”端子，右边的两个是“常开触点”的封装，这个好处是可以使用原来的PCB设计，而不必更改设计。不过在新设计里自己重新布局布线会更紧凑，更合理。在这里要注意评估板引脚和器件引脚的对照关系。好在厂家...; yang_alex 东芝光电继电器TLP3547评测

TWS耳机硬件设计美图: 1.PCBA2.3.TWS耳机硬件设计美图感觉还有空间，可以塞下更多功能RF是个挑战，现在TWS产品对RF要求较高，否则体验感不好.怪可爱的...; Fred_1977 电路观察室

基于FPGA的多路数字量采集模块设计: 1引言测控系统常常需要处理所采集到的各种数字量信号。通常测控系统采用通用MCU完成系统任务。但当系统中采集信号量较多时，仅依靠MCU则难以完成系统任务。针对这一问题，提出一种基于FPGA技术的多路数字量采集模块。利用FPGA的I／O端口数多且可编程设置的特点，配以VHDL编写的FPGA内部逻辑，实现采集多路数字量信号。2模块设计方案2.1功能要求该数字量采集模块主要功能是采集输入的36路数字及脉冲信号，并将编帧后的信号数据上传给上位机，上位机经解包处理后显示信号相应的状态进...; 黑衣人模拟电子

TI模拟应用期刊第一季: 本期精彩内容包括如下主题：放大器•运算放大器的增益稳定性，第1部分：总体系统分析•压电传感器的信号调节•将运算放大器与高速DAC进行接口连接，第3部分：简化DAC电流源电源管理•电池备份存储系统的电量监测因素•符合JEITA标准的锂离子电池充电器解决方案...; lixiaohai8211 模拟与混合信号